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|
/*
* Mach Operating System
* Copyright (c) 1993,1991,1990,1989 Carnegie Mellon University
* All Rights Reserved.
*
* Permission to use, copy, modify and distribute this software and its
* documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
* ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie Mellon
* the rights to redistribute these changes.
*/
/*
* Author: David B. Golub, Carnegie Mellon University
* Date: 3/89
*/
/*
* Mach device server routines (i386at version).
*
* Copyright (c) 1996 The University of Utah and
* the Computer Systems Laboratory at the University of Utah (CSL).
* All rights reserved.
*
* Permission to use, copy, modify and distribute this software is hereby
* granted provided that (1) source code retains these copyright, permission,
* and disclaimer notices, and (2) redistributions including binaries
* reproduce the notices in supporting documentation, and (3) all advertising
* materials mentioning features or use of this software display the following
* acknowledgement: ``This product includes software developed by the
* Computer Systems Laboratory at the University of Utah.''
*
* THE UNIVERSITY OF UTAH AND CSL ALLOW FREE USE OF THIS SOFTWARE IN ITS "AS
* IS" CONDITION. THE UNIVERSITY OF UTAH AND CSL DISCLAIM ANY LIABILITY OF
* ANY KIND FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
*
* CSL requests users of this software to return to csl-dist@cs.utah.edu any
* improvements that they make and grant CSL redistribution rights.
*
* Author: Shantanu Goel, University of Utah CSL
*/
#include <kern/printf.h>
#include <string.h>
#include <mach/boolean.h>
#include <mach/kern_return.h>
#include <mach/mig_errors.h>
#include <mach/port.h>
#include <mach/vm_param.h>
#include <mach/notify.h>
#include <machine/locore.h>
#include <machine/machspl.h> /* spl definitions */
#include <ipc/ipc_port.h>
#include <ipc/ipc_space.h>
#include <kern/ast.h>
#include <kern/counters.h>
#include <kern/debug.h>
#include <kern/printf.h>
#include <kern/queue.h>
#include <kern/zalloc.h>
#include <kern/thread.h>
#include <kern/task.h>
#include <kern/sched_prim.h>
#include <vm/memory_object.h>
#include <vm/vm_map.h>
#include <vm/vm_kern.h>
#include <vm/vm_user.h>
#include <device/device_types.h>
#include <device/dev_hdr.h>
#include <device/conf.h>
#include <device/io_req.h>
#include <device/ds_routines.h>
#include <device/net_status.h>
#include <device/device_port.h>
#include <device/device_reply.user.h>
#include <device/device_emul.h>
#include <machine/machspl.h>
#ifdef LINUX_DEV
extern struct device_emulation_ops linux_block_emulation_ops;
#ifdef CONFIG_INET
extern struct device_emulation_ops linux_net_emulation_ops;
#ifdef CONFIG_PCMCIA
extern struct device_emulation_ops linux_pcmcia_emulation_ops;
#endif
#endif
#endif
#ifdef MACH_HYP
extern struct device_emulation_ops hyp_block_emulation_ops;
extern struct device_emulation_ops hyp_net_emulation_ops;
#endif
extern struct device_emulation_ops mach_device_emulation_ops;
/* List of emulations. */
static struct device_emulation_ops *emulation_list[] =
{
#ifdef LINUX_DEV
&linux_block_emulation_ops,
#ifdef CONFIG_INET
&linux_net_emulation_ops,
#ifdef CONFIG_PCMCIA
&linux_pcmcia_emulation_ops,
#endif
#endif
#endif
#ifdef MACH_HYP
&hyp_block_emulation_ops,
&hyp_net_emulation_ops,
#endif
&mach_device_emulation_ops,
};
#define NUM_EMULATION (sizeof (emulation_list) / sizeof (emulation_list[0]))
io_return_t
ds_device_open (ipc_port_t open_port, ipc_port_t reply_port,
mach_msg_type_name_t reply_port_type, dev_mode_t mode,
char *name, device_t *devp)
{
int i;
io_return_t err;
/* Open must be called on the master device port. */
if (open_port != master_device_port)
return D_INVALID_OPERATION;
/* There must be a reply port. */
if (! IP_VALID (reply_port))
{
printf ("ds_* invalid reply port\n");
SoftDebugger ("ds_* reply_port");
return MIG_NO_REPLY;
}
/* Call each emulation's open routine to find the device. */
for (i = 0; i < NUM_EMULATION; i++)
{
err = (*emulation_list[i]->open) (reply_port, reply_port_type,
mode, name, devp);
if (err != D_NO_SUCH_DEVICE)
break;
}
return err;
}
io_return_t
ds_device_close (device_t dev)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
return (dev->emul_ops->close
? (*dev->emul_ops->close) (dev->emul_data)
: D_SUCCESS);
}
io_return_t
ds_device_write (device_t dev, ipc_port_t reply_port,
mach_msg_type_name_t reply_port_type, dev_mode_t mode,
recnum_t recnum, io_buf_ptr_t data, unsigned int count,
int *bytes_written)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (data == 0)
return D_INVALID_SIZE;
if (! dev->emul_ops->write)
return D_INVALID_OPERATION;
return (*dev->emul_ops->write) (dev->emul_data, reply_port,
reply_port_type, mode, recnum,
data, count, bytes_written);
}
io_return_t
ds_device_write_inband (device_t dev, ipc_port_t reply_port,
mach_msg_type_name_t reply_port_type,
dev_mode_t mode, recnum_t recnum,
io_buf_ptr_inband_t data, unsigned count,
int *bytes_written)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (data == 0)
return D_INVALID_SIZE;
if (! dev->emul_ops->write_inband)
return D_INVALID_OPERATION;
return (*dev->emul_ops->write_inband) (dev->emul_data, reply_port,
reply_port_type, mode, recnum,
data, count, bytes_written);
}
io_return_t
ds_device_read (device_t dev, ipc_port_t reply_port,
mach_msg_type_name_t reply_port_type, dev_mode_t mode,
recnum_t recnum, int count, io_buf_ptr_t *data,
unsigned *bytes_read)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->read)
return D_INVALID_OPERATION;
return (*dev->emul_ops->read) (dev->emul_data, reply_port,
reply_port_type, mode, recnum,
count, data, bytes_read);
}
io_return_t
ds_device_read_inband (device_t dev, ipc_port_t reply_port,
mach_msg_type_name_t reply_port_type, dev_mode_t mode,
recnum_t recnum, int count, char *data,
unsigned *bytes_read)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->read_inband)
return D_INVALID_OPERATION;
return (*dev->emul_ops->read_inband) (dev->emul_data, reply_port,
reply_port_type, mode, recnum,
count, data, bytes_read);
}
io_return_t
ds_device_set_status (device_t dev, dev_flavor_t flavor,
dev_status_t status, mach_msg_type_number_t status_count)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->set_status)
return D_INVALID_OPERATION;
return (*dev->emul_ops->set_status) (dev->emul_data, flavor, status,
status_count);
}
io_return_t
ds_device_get_status (device_t dev, dev_flavor_t flavor, dev_status_t status,
mach_msg_type_number_t *status_count)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->get_status)
return D_INVALID_OPERATION;
return (*dev->emul_ops->get_status) (dev->emul_data, flavor, status,
status_count);
}
io_return_t
ds_device_set_filter (device_t dev, ipc_port_t receive_port, int priority,
filter_t *filter, unsigned filter_count)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->set_filter)
return D_INVALID_OPERATION;
return (*dev->emul_ops->set_filter) (dev->emul_data, receive_port,
priority, filter, filter_count);
}
io_return_t
ds_device_map (device_t dev, vm_prot_t prot, vm_offset_t offset,
vm_size_t size, ipc_port_t *pager, boolean_t unmap)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->map)
return D_INVALID_OPERATION;
return (*dev->emul_ops->map) (dev->emul_data, prot,
offset, size, pager, unmap);
}
boolean_t
ds_notify (mach_msg_header_t *msg)
{
if (msg->msgh_id == MACH_NOTIFY_NO_SENDERS)
{
device_t dev;
mach_no_senders_notification_t *ns;
ns = (mach_no_senders_notification_t *) msg;
dev = dev_port_lookup((ipc_port_t) ns->not_header.msgh_remote_port);
assert(dev);
if (dev->emul_ops->no_senders)
(*dev->emul_ops->no_senders) (ns);
return TRUE;
}
printf ("ds_notify: strange notification %d\n", msg->msgh_id);
return FALSE;
}
io_return_t
ds_device_write_trap (device_t dev, dev_mode_t mode,
recnum_t recnum, vm_offset_t data, vm_size_t count)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->write_trap)
return D_INVALID_OPERATION;
return (*dev->emul_ops->write_trap) (dev->emul_data,
mode, recnum, data, count);
}
io_return_t
ds_device_writev_trap (device_t dev, dev_mode_t mode,
recnum_t recnum, io_buf_vec_t *iovec, vm_size_t count)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return D_NO_SUCH_DEVICE;
if (! dev->emul_ops->writev_trap)
return D_INVALID_OPERATION;
return (*dev->emul_ops->writev_trap) (dev->emul_data,
mode, recnum, iovec, count);
}
void
device_reference (device_t dev)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return;
if (dev->emul_ops->reference)
(*dev->emul_ops->reference) (dev->emul_data);
}
void
device_deallocate (device_t dev)
{
/* Refuse if device is dead or not completely open. */
if (dev == DEVICE_NULL)
return;
if (dev->emul_ops->dealloc)
(*dev->emul_ops->dealloc) (dev->emul_data);
}
/*
* What follows is the interface for the native Mach devices.
*/
ipc_port_t
mach_convert_device_to_port (mach_device_t device)
{
ipc_port_t port;
if (! device)
return IP_NULL;
device_lock(device);
if (device->state == DEV_STATE_OPEN)
port = ipc_port_make_send(device->port);
else
port = IP_NULL;
device_unlock(device);
mach_device_deallocate(device);
return port;
}
static io_return_t
device_open(reply_port, reply_port_type, mode, name, device_p)
ipc_port_t reply_port;
mach_msg_type_name_t reply_port_type;
dev_mode_t mode;
char * name;
device_t *device_p; /* out */
{
register mach_device_t device;
register kern_return_t result;
register io_req_t ior;
ipc_port_t notify;
/*
* Find the device.
*/
device = device_lookup(name);
if (device == MACH_DEVICE_NULL)
return (D_NO_SUCH_DEVICE);
/*
* If the device is being opened or closed,
* wait for that operation to finish.
*/
device_lock(device);
while (device->state == DEV_STATE_OPENING ||
device->state == DEV_STATE_CLOSING) {
device->io_wait = TRUE;
thread_sleep((event_t)device, simple_lock_addr(device->lock), TRUE);
device_lock(device);
}
/*
* If the device is already open, increment the open count
* and return.
*/
if (device->state == DEV_STATE_OPEN) {
if (device->flag & D_EXCL_OPEN) {
/*
* Cannot open a second time.
*/
device_unlock(device);
mach_device_deallocate(device);
return (D_ALREADY_OPEN);
}
device->open_count++;
device_unlock(device);
*device_p = &device->dev;
return (D_SUCCESS);
/*
* Return deallocates device reference while acquiring
* port.
*/
}
/*
* Allocate the device port and register the device before
* opening it.
*/
device->state = DEV_STATE_OPENING;
device_unlock(device);
/*
* Allocate port, keeping a reference for it.
*/
device->port = ipc_port_alloc_kernel();
if (device->port == IP_NULL) {
device_lock(device);
device->state = DEV_STATE_INIT;
device->port = IP_NULL;
if (device->io_wait) {
device->io_wait = FALSE;
thread_wakeup((event_t)device);
}
device_unlock(device);
mach_device_deallocate(device);
return (KERN_RESOURCE_SHORTAGE);
}
dev_port_enter(device);
/*
* Request no-senders notifications on device port.
*/
notify = ipc_port_make_sonce(device->port);
ip_lock(device->port);
ipc_port_nsrequest(device->port, 1, notify, ¬ify);
assert(notify == IP_NULL);
/*
* Open the device.
*/
io_req_alloc(ior, 0);
ior->io_device = device;
ior->io_unit = device->dev_number;
ior->io_op = IO_OPEN | IO_CALL;
ior->io_mode = mode;
ior->io_error = 0;
ior->io_done = ds_open_done;
ior->io_reply_port = reply_port;
ior->io_reply_port_type = reply_port_type;
result = (*device->dev_ops->d_open)(device->dev_number, (int)mode, ior);
if (result == D_IO_QUEUED)
return (MIG_NO_REPLY);
/*
* Return result via ds_open_done.
*/
ior->io_error = result;
(void) ds_open_done(ior);
io_req_free(ior);
return (MIG_NO_REPLY); /* reply already sent */
}
boolean_t
ds_open_done(ior)
register io_req_t ior;
{
kern_return_t result;
register mach_device_t device;
device = ior->io_device;
result = ior->io_error;
if (result != D_SUCCESS) {
/*
* Open failed. Deallocate port and device.
*/
dev_port_remove(device);
ipc_port_dealloc_kernel(device->port);
device->port = IP_NULL;
device_lock(device);
device->state = DEV_STATE_INIT;
if (device->io_wait) {
device->io_wait = FALSE;
thread_wakeup((event_t)device);
}
device_unlock(device);
mach_device_deallocate(device);
device = MACH_DEVICE_NULL;
}
else {
/*
* Open succeeded.
*/
device_lock(device);
device->state = DEV_STATE_OPEN;
device->open_count = 1;
if (device->io_wait) {
device->io_wait = FALSE;
thread_wakeup((event_t)device);
}
device_unlock(device);
/* donate device reference to get port */
}
/*
* Must explicitly convert device to port, since
* device_reply interface is built as 'user' side
* (thus cannot get translation).
*/
if (IP_VALID(ior->io_reply_port)) {
(void) ds_device_open_reply(ior->io_reply_port,
ior->io_reply_port_type,
result,
mach_convert_device_to_port(device));
} else
mach_device_deallocate(device);
return (TRUE);
}
static io_return_t
device_close(device)
register mach_device_t device;
{
device_lock(device);
/*
* If device will remain open, do nothing.
*/
if (--device->open_count > 0) {
device_unlock(device);
return (D_SUCCESS);
}
/*
* If device is being closed, do nothing.
*/
if (device->state == DEV_STATE_CLOSING) {
device_unlock(device);
return (D_SUCCESS);
}
/*
* Mark device as closing, to prevent new IO.
* Outstanding IO will still be in progress.
*/
device->state = DEV_STATE_CLOSING;
device_unlock(device);
/*
* ? wait for IO to end ?
* only if device wants to
*/
/*
* Remove the device-port association.
*/
dev_port_remove(device);
ipc_port_dealloc_kernel(device->port);
/*
* Close the device
*/
(*device->dev_ops->d_close)(device->dev_number);
/*
* Finally mark it closed. If someone else is trying
* to open it, the open can now proceed.
*/
device_lock(device);
device->state = DEV_STATE_INIT;
if (device->io_wait) {
device->io_wait = FALSE;
thread_wakeup((event_t)device);
}
device_unlock(device);
return (D_SUCCESS);
}
/*
* Write to a device.
*/
static io_return_t
device_write(device, reply_port, reply_port_type, mode, recnum,
data, data_count, bytes_written)
mach_device_t device;
ipc_port_t reply_port;
mach_msg_type_name_t reply_port_type;
dev_mode_t mode;
recnum_t recnum;
io_buf_ptr_t data;
unsigned int data_count;
int *bytes_written; /* out */
{
register io_req_t ior;
register io_return_t result;
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/*
* XXX Need logic to reject ridiculously big requests.
*/
/* XXX note that a CLOSE may proceed at any point */
/*
* Package the write request for the device driver
*/
io_req_alloc(ior, data_count);
ior->io_device = device;
ior->io_unit = device->dev_number;
ior->io_op = IO_WRITE | IO_CALL;
ior->io_mode = mode;
ior->io_recnum = recnum;
ior->io_data = data;
ior->io_count = data_count;
ior->io_total = data_count;
ior->io_alloc_size = 0;
ior->io_residual = 0;
ior->io_error = 0;
ior->io_done = ds_write_done;
ior->io_reply_port = reply_port;
ior->io_reply_port_type = reply_port_type;
ior->io_copy = VM_MAP_COPY_NULL;
/*
* The ior keeps an extra reference for the device.
*/
mach_device_reference(device);
/*
* And do the write ...
*
* device_write_dealoc returns false if there's more
* to do; it has updated the ior appropriately and expects
* its caller to reinvoke it on the device.
*/
do {
result = (*device->dev_ops->d_write)(device->dev_number, ior);
/*
* If the IO was queued, delay reply until it is finished.
*/
if (result == D_IO_QUEUED)
return (MIG_NO_REPLY);
/*
* Discard the local mapping of the data.
*/
} while (!device_write_dealloc(ior));
/*
* Return the number of bytes actually written.
*/
*bytes_written = ior->io_total - ior->io_residual;
/*
* Remove the extra reference.
*/
mach_device_deallocate(device);
io_req_free(ior);
return (result);
}
/*
* Write to a device, but memory is in message.
*/
static io_return_t
device_write_inband(device, reply_port, reply_port_type, mode, recnum,
data, data_count, bytes_written)
mach_device_t device;
ipc_port_t reply_port;
mach_msg_type_name_t reply_port_type;
dev_mode_t mode;
recnum_t recnum;
io_buf_ptr_inband_t data;
unsigned int data_count;
int *bytes_written; /* out */
{
register io_req_t ior;
register io_return_t result;
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
/*
* Package the write request for the device driver.
*/
io_req_alloc(ior, 0);
ior->io_device = device;
ior->io_unit = device->dev_number;
ior->io_op = IO_WRITE | IO_CALL | IO_INBAND;
ior->io_mode = mode;
ior->io_recnum = recnum;
ior->io_data = data;
ior->io_count = data_count;
ior->io_total = data_count;
ior->io_alloc_size = 0;
ior->io_residual = 0;
ior->io_error = 0;
ior->io_done = ds_write_done;
ior->io_reply_port = reply_port;
ior->io_reply_port_type = reply_port_type;
/*
* The ior keeps an extra reference for the device.
*/
mach_device_reference(device);
/*
* And do the write.
*/
result = (*device->dev_ops->d_write)(device->dev_number, ior);
/*
* If the IO was queued, delay reply until it is finished.
*/
if (result == D_IO_QUEUED)
return (MIG_NO_REPLY);
/*
* Return the number of bytes actually written.
*/
*bytes_written = ior->io_total - ior->io_residual;
/*
* Remove the extra reference.
*/
mach_device_deallocate(device);
io_req_free(ior);
return (result);
}
/*
* Wire down incoming memory to give to device.
*/
kern_return_t
device_write_get(ior, wait)
register io_req_t ior;
boolean_t *wait;
{
vm_map_copy_t io_copy;
vm_offset_t new_addr;
register kern_return_t result;
int bsize;
vm_size_t min_size;
/*
* By default, caller does not have to wait.
*/
*wait = FALSE;
/*
* Nothing to do if no data.
*/
if (ior->io_count == 0)
return (KERN_SUCCESS);
/*
* Loaned iors already have valid data.
*/
if (ior->io_op & IO_LOANED)
return (KERN_SUCCESS);
/*
* Inband case.
*/
if (ior->io_op & IO_INBAND) {
assert(ior->io_count <= sizeof (io_buf_ptr_inband_t));
new_addr = zalloc(io_inband_zone);
memcpy((void*)new_addr, ior->io_data, ior->io_count);
ior->io_data = (io_buf_ptr_t)new_addr;
ior->io_alloc_size = sizeof (io_buf_ptr_inband_t);
return (KERN_SUCCESS);
}
/*
* Figure out how much data to move this time. If the device
* won't return a block size, then we have to do the whole
* request in one shot (ditto if this is a block fragment),
* otherwise, move at least one block's worth.
*/
result = (*ior->io_device->dev_ops->d_dev_info)(
ior->io_device->dev_number,
D_INFO_BLOCK_SIZE,
&bsize);
if (result != KERN_SUCCESS || ior->io_count < (vm_size_t) bsize)
min_size = (vm_size_t) ior->io_count;
else
min_size = (vm_size_t) bsize;
/*
* Map the pages from this page list into memory.
* io_data records location of data.
* io_alloc_size is the vm size of the region to deallocate.
*/
io_copy = (vm_map_copy_t) ior->io_data;
result = kmem_io_map_copyout(device_io_map,
(vm_offset_t*)&ior->io_data, &new_addr,
&ior->io_alloc_size, io_copy, min_size);
if (result != KERN_SUCCESS)
return (result);
if ((ior->io_data + ior->io_count) >
(((char *)new_addr) + ior->io_alloc_size)) {
/*
* Operation has to be split. Reset io_count for how
* much we can do this time.
*/
assert(vm_map_copy_has_cont(io_copy));
assert(ior->io_count == io_copy->size);
ior->io_count = ior->io_alloc_size -
(ior->io_data - ((char *)new_addr));
/*
* Caller must wait synchronously.
*/
ior->io_op &= ~IO_CALL;
*wait = TRUE;
}
ior->io_copy = io_copy; /* vm_map_copy to discard */
return (KERN_SUCCESS);
}
/*
* Clean up memory allocated for IO.
*/
boolean_t
device_write_dealloc(ior)
register io_req_t ior;
{
vm_map_copy_t new_copy = VM_MAP_COPY_NULL;
register
vm_map_copy_t io_copy;
kern_return_t result;
vm_offset_t size_to_do;
int bsize;
if (ior->io_alloc_size == 0)
return (TRUE);
/*
* Inband case.
*/
if (ior->io_op & IO_INBAND) {
zfree(io_inband_zone, (vm_offset_t)ior->io_data);
return (TRUE);
}
if ((io_copy = ior->io_copy) == VM_MAP_COPY_NULL)
return (TRUE);
/*
* To prevent a possible deadlock with the default pager,
* we have to release space in the device_io_map before
* we allocate any memory. (Which vm_map_copy_invoke_cont
* might do.) See the discussion in mach_device_init.
*/
kmem_io_map_deallocate(device_io_map,
trunc_page(ior->io_data),
ior->io_alloc_size);
if (vm_map_copy_has_cont(io_copy)) {
/*
* Remember how much is left, then
* invoke or abort the continuation.
*/
size_to_do = io_copy->size - ior->io_count;
if (ior->io_error == 0) {
vm_map_copy_invoke_cont(io_copy, &new_copy, &result);
}
else {
vm_map_copy_abort_cont(io_copy);
result = KERN_FAILURE;
}
if (result == KERN_SUCCESS && new_copy != VM_MAP_COPY_NULL) {
register int res;
/*
* We have a new continuation, reset the ior to
* represent the remainder of the request. Must
* adjust the recnum because drivers assume
* that the residual is zero.
*/
ior->io_op &= ~IO_DONE;
ior->io_op |= IO_CALL;
res = (*ior->io_device->dev_ops->d_dev_info)(
ior->io_device->dev_number,
D_INFO_BLOCK_SIZE,
&bsize);
if (res != D_SUCCESS)
panic("device_write_dealloc: No block size");
ior->io_recnum += ior->io_count/bsize;
ior->io_count = new_copy->size;
}
else {
/*
* No continuation. Add amount we didn't get
* to into residual.
*/
ior->io_residual += size_to_do;
}
}
/*
* Clean up the state for the IO that just completed.
*/
vm_map_copy_discard(ior->io_copy);
ior->io_copy = VM_MAP_COPY_NULL;
ior->io_data = (char *) new_copy;
/*
* Return FALSE if there's more IO to do.
*/
return(new_copy == VM_MAP_COPY_NULL);
}
/*
* Send write completion message to client, and discard the data.
*/
boolean_t
ds_write_done(ior)
register io_req_t ior;
{
/*
* device_write_dealloc discards the data that has been
* written, but may decide that there is more to write.
*/
while (!device_write_dealloc(ior)) {
register io_return_t result;
register mach_device_t device;
/*
* More IO to do -- invoke it.
*/
device = ior->io_device;
result = (*device->dev_ops->d_write)(device->dev_number, ior);
/*
* If the IO was queued, return FALSE -- not done yet.
*/
if (result == D_IO_QUEUED)
return (FALSE);
}
/*
* Now the write is really complete. Send reply.
*/
if (IP_VALID(ior->io_reply_port)) {
(void) (*((ior->io_op & IO_INBAND) ?
ds_device_write_reply_inband :
ds_device_write_reply))(ior->io_reply_port,
ior->io_reply_port_type,
ior->io_error,
(int) (ior->io_total -
ior->io_residual));
}
mach_device_deallocate(ior->io_device);
return (TRUE);
}
/*
* Read from a device.
*/
static io_return_t
device_read(device, reply_port, reply_port_type, mode, recnum,
bytes_wanted, data, data_count)
mach_device_t device;
ipc_port_t reply_port;
mach_msg_type_name_t reply_port_type;
dev_mode_t mode;
recnum_t recnum;
int bytes_wanted;
io_buf_ptr_t *data; /* out */
unsigned int *data_count; /* out */
{
register io_req_t ior;
register io_return_t result;
#ifdef lint
*data = *data;
*data_count = *data_count;
#endif /* lint */
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
/*
* There must be a reply port.
*/
if (!IP_VALID(reply_port)) {
printf("ds_* invalid reply port\n");
SoftDebugger("ds_* reply_port");
return (MIG_NO_REPLY); /* no sense in doing anything */
}
/*
* Package the read request for the device driver
*/
io_req_alloc(ior, 0);
ior->io_device = device;
ior->io_unit = device->dev_number;
ior->io_op = IO_READ | IO_CALL;
ior->io_mode = mode;
ior->io_recnum = recnum;
ior->io_data = 0; /* driver must allocate data */
ior->io_count = bytes_wanted;
ior->io_alloc_size = 0; /* no data allocated yet */
ior->io_residual = 0;
ior->io_error = 0;
ior->io_done = ds_read_done;
ior->io_reply_port = reply_port;
ior->io_reply_port_type = reply_port_type;
/*
* The ior keeps an extra reference for the device.
*/
mach_device_reference(device);
/*
* And do the read.
*/
result = (*device->dev_ops->d_read)(device->dev_number, ior);
/*
* If the IO was queued, delay reply until it is finished.
*/
if (result == D_IO_QUEUED)
return (MIG_NO_REPLY);
/*
* Return result via ds_read_done.
*/
ior->io_error = result;
(void) ds_read_done(ior);
io_req_free(ior);
return (MIG_NO_REPLY); /* reply has already been sent. */
}
/*
* Read from a device, but return the data 'inband.'
*/
static io_return_t
device_read_inband(device, reply_port, reply_port_type, mode, recnum,
bytes_wanted, data, data_count)
mach_device_t device;
ipc_port_t reply_port;
mach_msg_type_name_t reply_port_type;
dev_mode_t mode;
recnum_t recnum;
int bytes_wanted;
char *data; /* pointer to OUT array */
unsigned int *data_count; /* out */
{
register io_req_t ior;
register io_return_t result;
#ifdef lint
*data = *data;
*data_count = *data_count;
#endif /* lint */
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
/*
* There must be a reply port.
*/
if (!IP_VALID(reply_port)) {
printf("ds_* invalid reply port\n");
SoftDebugger("ds_* reply_port");
return (MIG_NO_REPLY); /* no sense in doing anything */
}
/*
* Package the read for the device driver
*/
io_req_alloc(ior, 0);
ior->io_device = device;
ior->io_unit = device->dev_number;
ior->io_op = IO_READ | IO_CALL | IO_INBAND;
ior->io_mode = mode;
ior->io_recnum = recnum;
ior->io_data = 0; /* driver must allocate data */
ior->io_count =
((bytes_wanted < sizeof(io_buf_ptr_inband_t)) ?
bytes_wanted : sizeof(io_buf_ptr_inband_t));
ior->io_alloc_size = 0; /* no data allocated yet */
ior->io_residual = 0;
ior->io_error = 0;
ior->io_done = ds_read_done;
ior->io_reply_port = reply_port;
ior->io_reply_port_type = reply_port_type;
/*
* The ior keeps an extra reference for the device.
*/
mach_device_reference(device);
/*
* Do the read.
*/
result = (*device->dev_ops->d_read)(device->dev_number, ior);
/*
* If the io was queued, delay reply until it is finished.
*/
if (result == D_IO_QUEUED)
return (MIG_NO_REPLY);
/*
* Return result, via ds_read_done.
*/
ior->io_error = result;
(void) ds_read_done(ior);
io_req_free(ior);
return (MIG_NO_REPLY); /* reply has already been sent. */
}
/*
* Allocate wired-down memory for device read.
*/
kern_return_t device_read_alloc(ior, size)
register io_req_t ior;
register vm_size_t size;
{
vm_offset_t addr;
kern_return_t kr;
/*
* Nothing to do if no data.
*/
if (ior->io_count == 0)
return (KERN_SUCCESS);
if (ior->io_op & IO_INBAND) {
ior->io_data = (io_buf_ptr_t) zalloc(io_inband_zone);
ior->io_alloc_size = sizeof(io_buf_ptr_inband_t);
} else {
size = round_page(size);
kr = kmem_alloc(kernel_map, &addr, size);
if (kr != KERN_SUCCESS)
return (kr);
ior->io_data = (io_buf_ptr_t) addr;
ior->io_alloc_size = size;
}
return (KERN_SUCCESS);
}
boolean_t ds_read_done(ior)
io_req_t ior;
{
vm_offset_t start_data, end_data;
vm_offset_t start_sent, end_sent;
register vm_size_t size_read;
if (ior->io_error)
size_read = 0;
else
size_read = ior->io_count - ior->io_residual;
start_data = (vm_offset_t)ior->io_data;
end_data = start_data + size_read;
start_sent = (ior->io_op & IO_INBAND) ? start_data :
trunc_page(start_data);
end_sent = (ior->io_op & IO_INBAND) ?
start_data + ior->io_alloc_size : round_page(end_data);
/*
* Zero memory that the device did not fill.
*/
if (start_sent < start_data)
memset((char *)start_sent, 0, start_data - start_sent);
if (end_sent > end_data)
memset((char *)end_data, 0, end_sent - end_data);
/*
* Touch the data being returned, to mark it dirty.
* If the pages were filled by DMA, the pmap module
* may think that they are clean.
*/
{
register vm_offset_t touch;
register int c;
for (touch = start_sent; touch < end_sent; touch += PAGE_SIZE) {
c = *(volatile char *)touch;
*(volatile char *)touch = c;
}
}
/*
* Send the data to the reply port - this
* unwires and deallocates it.
*/
if (ior->io_op & IO_INBAND) {
(void)ds_device_read_reply_inband(ior->io_reply_port,
ior->io_reply_port_type,
ior->io_error,
(char *) start_data,
size_read);
} else {
vm_map_copy_t copy;
kern_return_t kr;
kr = vm_map_copyin_page_list(kernel_map, start_data,
size_read, TRUE, TRUE,
©, FALSE);
if (kr != KERN_SUCCESS)
panic("read_done: vm_map_copyin_page_list failed");
(void)ds_device_read_reply(ior->io_reply_port,
ior->io_reply_port_type,
ior->io_error,
(char *) copy,
size_read);
}
/*
* Free any memory that was allocated but not sent.
*/
if (ior->io_count != 0) {
if (ior->io_op & IO_INBAND) {
if (ior->io_alloc_size > 0)
zfree(io_inband_zone, (vm_offset_t)ior->io_data);
} else {
register vm_offset_t end_alloc;
end_alloc = start_sent + round_page(ior->io_alloc_size);
if (end_alloc > end_sent)
(void) vm_deallocate(kernel_map,
end_sent,
end_alloc - end_sent);
}
}
mach_device_deallocate(ior->io_device);
return (TRUE);
}
static io_return_t
device_set_status(device, flavor, status, status_count)
mach_device_t device;
dev_flavor_t flavor;
dev_status_t status;
mach_msg_type_number_t status_count;
{
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
return ((*device->dev_ops->d_setstat)(device->dev_number,
flavor,
status,
status_count));
}
io_return_t
mach_device_get_status(device, flavor, status, status_count)
mach_device_t device;
dev_flavor_t flavor;
dev_status_t status; /* pointer to OUT array */
mach_msg_type_number_t *status_count; /* out */
{
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
return ((*device->dev_ops->d_getstat)(device->dev_number,
flavor,
status,
status_count));
}
static io_return_t
device_set_filter(device, receive_port, priority, filter, filter_count)
mach_device_t device;
ipc_port_t receive_port;
int priority;
filter_t filter[]; /* pointer to IN array */
unsigned int filter_count;
{
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
/*
* Request is absurd if no receive port is specified.
*/
if (!IP_VALID(receive_port))
return (D_INVALID_OPERATION);
return ((*device->dev_ops->d_async_in)(device->dev_number,
receive_port,
priority,
filter,
filter_count));
}
static io_return_t
device_map(device, protection, offset, size, pager, unmap)
mach_device_t device;
vm_prot_t protection;
vm_offset_t offset;
vm_size_t size;
ipc_port_t *pager; /* out */
boolean_t unmap; /* ? */
{
#ifdef lint
unmap = unmap;
#endif /* lint */
if (protection & ~VM_PROT_ALL)
return (KERN_INVALID_ARGUMENT);
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
return (device_pager_setup(device, protection, offset, size,
(mach_port_t*)pager));
}
/*
* Doesn't do anything (yet).
*/
static void
ds_no_senders(notification)
mach_no_senders_notification_t *notification;
{
printf("ds_no_senders called! device_port=0x%x count=%d\n",
notification->not_header.msgh_remote_port,
notification->not_count);
}
queue_head_t io_done_list;
decl_simple_lock_data(, io_done_list_lock)
#define splio splsched /* XXX must block ALL io devices */
void iodone(ior)
register io_req_t ior;
{
register spl_t s;
/*
* If this ior was loaned to us, return it directly.
*/
if (ior->io_op & IO_LOANED) {
(*ior->io_done)(ior);
return;
}
/*
* If !IO_CALL, some thread is waiting for this. Must lock
* structure to interlock correctly with iowait(). Else can
* toss on queue for io_done thread to call completion.
*/
s = splio();
if ((ior->io_op & IO_CALL) == 0) {
ior_lock(ior);
ior->io_op |= IO_DONE;
ior->io_op &= ~IO_WANTED;
ior_unlock(ior);
thread_wakeup((event_t)ior);
} else {
ior->io_op |= IO_DONE;
simple_lock(&io_done_list_lock);
enqueue_tail(&io_done_list, (queue_entry_t)ior);
thread_wakeup((event_t)&io_done_list);
simple_unlock(&io_done_list_lock);
}
splx(s);
}
void io_done_thread_continue()
{
for (;;) {
register spl_t s;
register io_req_t ior;
#if defined (LINUX_DEV) && defined (CONFIG_INET)
free_skbuffs ();
#endif
s = splio();
simple_lock(&io_done_list_lock);
while ((ior = (io_req_t)dequeue_head(&io_done_list)) != 0) {
simple_unlock(&io_done_list_lock);
(void) splx(s);
if ((*ior->io_done)(ior)) {
/*
* IO done - free io_req_elt
*/
io_req_free(ior);
}
/* else routine has re-queued it somewhere */
s = splio();
simple_lock(&io_done_list_lock);
}
assert_wait(&io_done_list, FALSE);
simple_unlock(&io_done_list_lock);
(void) splx(s);
counter(c_io_done_thread_block++);
thread_block(io_done_thread_continue);
}
}
void io_done_thread()
{
/*
* Set thread privileges and highest priority.
*/
current_thread()->vm_privilege = TRUE;
stack_privilege(current_thread());
thread_set_own_priority(0);
io_done_thread_continue();
/*NOTREACHED*/
}
#define DEVICE_IO_MAP_SIZE (2 * 1024 * 1024)
static void mach_device_trap_init(void); /* forward */
void mach_device_init()
{
vm_offset_t device_io_min, device_io_max;
queue_init(&io_done_list);
simple_lock_init(&io_done_list_lock);
device_io_map = kmem_suballoc(kernel_map,
&device_io_min,
&device_io_max,
DEVICE_IO_MAP_SIZE,
FALSE);
/*
* If the kernel receives many device_write requests, the
* device_io_map might run out of space. To prevent
* device_write_get from failing in this case, we enable
* wait_for_space on the map. This causes kmem_io_map_copyout
* to block until there is sufficient space.
* (XXX Large writes may be starved by small writes.)
*
* There is a potential deadlock problem with this solution,
* if a device_write from the default pager has to wait
* for the completion of a device_write which needs to wait
* for memory allocation. Hence, once device_write_get
* allocates space in device_io_map, no blocking memory
* allocations should happen until device_write_dealloc
* frees the space. (XXX A large write might starve
* a small write from the default pager.)
*/
device_io_map->wait_for_space = TRUE;
io_inband_zone = zinit(sizeof(io_buf_ptr_inband_t), 0,
1000 * sizeof(io_buf_ptr_inband_t),
10 * sizeof(io_buf_ptr_inband_t),
FALSE,
"io inband read buffers");
mach_device_trap_init();
}
void iowait(ior)
io_req_t ior;
{
spl_t s;
s = splio();
ior_lock(ior);
while ((ior->io_op&IO_DONE)==0) {
assert_wait((event_t)ior, FALSE);
ior_unlock(ior);
thread_block((void (*)()) 0);
ior_lock(ior);
}
ior_unlock(ior);
splx(s);
}
/*
* Device trap support.
*/
/*
* Memory Management
*
* This currently has a single pool of 2k wired buffers
* since we only handle writes to an ethernet device.
* Should be more general.
*/
#define IOTRAP_REQSIZE 2048
zone_t io_trap_zone;
/*
* Initialization. Called from mach_device_init().
*/
static void
mach_device_trap_init(void)
{
io_trap_zone = zinit(IOTRAP_REQSIZE, 0,
256 * IOTRAP_REQSIZE,
16 * IOTRAP_REQSIZE,
FALSE,
"wired device trap buffers");
}
/*
* Allocate an io_req_t.
* Currently zalloc's from io_trap_zone.
*
* Could have lists of different size zones.
* Could call a device-specific routine.
*/
io_req_t
ds_trap_req_alloc(mach_device_t device, vm_size_t data_size)
{
return (io_req_t) zalloc(io_trap_zone);
}
/*
* Called by iodone to release ior.
*/
boolean_t
ds_trap_write_done(io_req_t ior)
{
register mach_device_t dev;
dev = ior->io_device;
/*
* Should look at reply port and maybe send a message.
*/
zfree(io_trap_zone, (vm_offset_t) ior);
/*
* Give up device reference from ds_write_trap.
*/
mach_device_deallocate(dev);
return TRUE;
}
/*
* Like device_write except that data is in user space.
*/
static io_return_t
device_write_trap (mach_device_t device, dev_mode_t mode,
recnum_t recnum, vm_offset_t data, vm_size_t data_count)
{
io_req_t ior;
io_return_t result;
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
/*
* Get a buffer to hold the ioreq.
*/
ior = ds_trap_req_alloc(device, data_count);
/*
* Package the write request for the device driver.
*/
ior->io_device = device;
ior->io_unit = device->dev_number;
ior->io_op = IO_WRITE | IO_CALL | IO_LOANED;
ior->io_mode = mode;
ior->io_recnum = recnum;
ior->io_data = (io_buf_ptr_t)
(vm_offset_t)ior + sizeof(struct io_req);
ior->io_count = data_count;
ior->io_total = data_count;
ior->io_alloc_size = 0;
ior->io_residual = 0;
ior->io_error = 0;
ior->io_done = ds_trap_write_done;
ior->io_reply_port = IP_NULL; /* XXX */
ior->io_reply_port_type = 0; /* XXX */
/*
* Copy the data from user space.
*/
if (data_count > 0)
copyin((char *)data, (char *)ior->io_data, data_count);
/*
* The ior keeps an extra reference for the device.
*/
mach_device_reference(device);
/*
* And do the write.
*/
result = (*device->dev_ops->d_write)(device->dev_number, ior);
/*
* If the IO was queued, delay reply until it is finished.
*/
if (result == D_IO_QUEUED)
return (MIG_NO_REPLY);
/*
* Remove the extra reference.
*/
mach_device_deallocate(device);
zfree(io_trap_zone, (vm_offset_t) ior);
return (result);
}
static io_return_t
device_writev_trap (mach_device_t device, dev_mode_t mode,
recnum_t recnum, io_buf_vec_t *iovec, vm_size_t iocount)
{
io_req_t ior;
io_return_t result;
io_buf_vec_t stack_iovec[16]; /* XXX */
vm_size_t data_count;
int i;
if (device->state != DEV_STATE_OPEN)
return (D_NO_SUCH_DEVICE);
/* XXX note that a CLOSE may proceed at any point */
/*
* Copyin user addresses.
*/
if (iocount > 16)
return KERN_INVALID_VALUE; /* lame */
copyin((char *)iovec,
(char *)stack_iovec,
iocount * sizeof(io_buf_vec_t));
for (data_count = 0, i = 0; i < iocount; i++)
data_count += stack_iovec[i].count;
/*
* Get a buffer to hold the ioreq.
*/
ior = ds_trap_req_alloc(device, data_count);
/*
* Package the write request for the device driver.
*/
ior->io_device = device;
ior->io_unit = device->dev_number;
ior->io_op = IO_WRITE | IO_CALL | IO_LOANED;
ior->io_mode = mode;
ior->io_recnum = recnum;
ior->io_data = (io_buf_ptr_t)
(vm_offset_t)ior + sizeof(struct io_req);
ior->io_count = data_count;
ior->io_total = data_count;
ior->io_alloc_size = 0;
ior->io_residual = 0;
ior->io_error = 0;
ior->io_done = ds_trap_write_done;
ior->io_reply_port = IP_NULL; /* XXX */
ior->io_reply_port_type = 0; /* XXX */
/*
* Copy the data from user space.
*/
if (data_count > 0) {
vm_offset_t p;
p = (vm_offset_t) ior->io_data;
for (i = 0; i < iocount; i++) {
copyin((char *) stack_iovec[i].data,
(char *) p,
stack_iovec[i].count);
p += stack_iovec[i].count;
}
}
/*
* The ior keeps an extra reference for the device.
*/
mach_device_reference(device);
/*
* And do the write.
*/
result = (*device->dev_ops->d_write)(device->dev_number, ior);
/*
* If the IO was queued, delay reply until it is finished.
*/
if (result == D_IO_QUEUED)
return (MIG_NO_REPLY);
/*
* Remove the extra reference.
*/
mach_device_deallocate(device);
zfree(io_trap_zone, (vm_offset_t) ior);
return (result);
}
struct device_emulation_ops mach_device_emulation_ops =
{
(void*) mach_device_reference,
(void*) mach_device_deallocate,
(void*) mach_convert_device_to_port,
device_open,
device_close,
device_write,
device_write_inband,
device_read,
device_read_inband,
device_set_status,
mach_device_get_status,
device_set_filter,
device_map,
ds_no_senders,
(void*) device_write_trap,
(void*) device_writev_trap
};
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